Loewner evolution driven by complex Brownian motion (with simulations by Minjae Park)
Abstract
We study the Loewner evolution whose driving function is , where is a pair of Brownian motions with a given covariance matrix. This model can be thought of as a generalization of Schramm-Loewner evolution (SLE) with complex parameter values. We show that our Loewner evolutions behave very differently from ordinary SLE. For example, if neither nor is identically equal to zero, then the set of points disconnected from by the Loewner hull has non-empty interior at each time. We also show that our model exhibits three phases analogous to the phases of SLE: a phase where the hulls have zero Lebesgue measure, a phase where points are swallowed but not hit by the hulls, and a phase where the hulls are space-filling. The phase boundaries are expressed in terms of the signs of explicit integrals. These boundaries have a simple closed form when the correlation of the two Brownian motions is zero.
Keywords
Cite
@article{arxiv.2203.07313,
title = {Loewner evolution driven by complex Brownian motion (with simulations by Minjae Park)},
author = {Ewain Gwynne and Joshua Pfeffer},
journal= {arXiv preprint arXiv:2203.07313},
year = {2023}
}
Comments
49 pages, 12 figures; to appear in AOP